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Autecology of Bradyrhizobium japonicum in soybean-rice rotations (1995)

Roughley, R. J. ; Gault, R. R. ; Gemell, L. G. ; [et al.]

Springer

Plant and soil 176 (1995), S. 7-14

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ISSN: 1573-5036

Keywords: Bradyrhizobium japonicum ; ecology ; N2-fixation ; nodulation ; rice ; soybean

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract The effect of rice culture on changes in the number of a strain of soybean root-nodule bacteria, (Bradyrhizobium japonicum CB1809), already established in the soil by growing inoculated soybean crops, was investigated in transitional red-brown earth soils at two sites in south-western New South Wales. At the first site, 5.5 years elapsed between the harvest of the last of four successive crops of soybean and the sowing of the next. In this period three crops of rice and one crop of triticale were sown and in the intervals between these crops, and after the crop of triticale, the land was fallowed. Before sowing the first rice crop, the number of Bradyrhizobium japonicum was 1.32×105 g−1 soil. The respective numbers of bradyrhizobia after the first, second and third rice crops were 4.52 ×104, 1.26×104 and 6.40×102 g−1 soil. In the following two years the population remained constant. Thus sufficient bradyrhizobia survived in soil to nodulate and allow N2-fixation by the succeeding soybean crop. At the second site, numbers of bradyrhizobia declined during a rice crop, but the decline was less than when the soil was fallowed (400-fold cf. 2200-fold). Multiplication of bradyrhizobia was rapid in the rhizosphere of soybean seedlings sown without inoculation in the rice bays. At 16 days after sowing, their numbers were not significantly different (p〈0.05) from those in plots where rice had not been sown. Nodulation of soybeans was greatest in plots where rice had not been grown, but yield and grain nitrogen were not significantly different (p〈0.05). Our results indicate that flooding soil has a deleterious effect on the survival of bradyrhizobia but, under the conditions of the experiments, sufficient B. japonicum strain CB 1809 survived to provide good nodulation after three crops of rice covering a total period of 5.5 years between crops of soybean.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00017670

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Effect of host plant selection and temperature on the structure of root nodules of red clover (Trifolium pratense L.) (1981)

Roughley, R. J. ; Nutman, P. S. ; Chandler, Muriel R.

Springer

Plant and soil 61 (1981), S. 113-124

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ISSN: 1573-5036

Keywords: Host selection ; Nitrogen fixation ; Nodule structure ; Rhizobium trifolii ; TemperatureTrifolium pratense

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary 1. Nodule structure was examined in the red clover cultivar S123 and in lines (designated H2) separately bred for high yield withRhizobium trifolii strains RCR 0403 and RCR 5. Plants were grown at 16/11, 22/17 and 27/22°C in a 16 h day at 25,000 lux. 2. The larger yields of bred lines compared with S123 were directly correlated with larger aggregate nodule size, larger infected zones and with more bacteroid tissue. Over all treatments the correlation of plant dry weight with aggregate areas of bacteroid tissue, assessed in median longitudinal section, accounted for 79% of the variance. 3. Yields were unrelated to the proportion of uninfected cells and vacuoles within the bacteroid zone. 4. Effects of host type and strain on nodule structure and yield were greatest at the moderate temperature and least and most irregular at high temperature. 5. Bacteriod tissue degenerated more rapidly in S123 than in the bred lines, more rapidly with RCR 0403 than RCR 5 and more rapidly at the high temperature than at moderate or low temperatures. 6. Aggregate nodule size irrespective of treatment was correlated with the aggregate sizes of nodule meristem and differentiating tissues. Nodule comtex comprised a larger proportion of the nodule section at 17 days than subsequently. Other than as specified above, the size relationships of the different tissues of the nodule were unaffected by host selection, temperature, bacterial strain or plant age. 7. At 22/17°C over a 17–25 day period the increment in dry matter per mm2 active nodule tissue was similar for H2 and S123 plants and was less for RCR 0403 (3.33 mg) than for RCR 5 (6.87 mg). At 27/22°C the effeciency of bacteroid tissue was much less,viz. 0.67 and 1.23 mg per mm2 respectively. 8. Nodule tissue areas and volumes were closely related so that unit volumes of active bacteriod tissue in general promoted similar dry matter increment in S123 and bred lines,viz. about 50.5 mg mm−3 at 22/17° for RCR 0403 and 80.8 mg mm−3 for RCR 5. The latter was associated with a fixation rate of 0.157 mg N mm−3 active tissue day−1.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02277368

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